Silicon nitride photonic integrated chips have propelled the development of applications in numerous fields. However, in key areas such as LiDAR, data communication, quantum computing, and precision measurement, there are still many technical challenges to overcome. Whether it's the mechanical scanning limitations of LiDAR, the high power consumption and complex systems in data communication, or the instability of free-space optics in quantum technology, these issues severely restrict further technological advancements. On July 10th at 7:30 PM, LIGENTEC will host a live broadcast on "LIGENTEC Low-Loss Silicon Nitride Photonic Integrated Chips and Active Integration," showcasing how innovative technologies can break through these bottlenecks.
Technical Pain Points and Solutions:
Reliability Issues in LiDAR
Traditional LiDAR relies on mechanical scanning, which not only limits the frame rate but also fails to meet the reliability requirements for automotive-grade applications. LIGENTEC's silicon nitride chips, with their solid-state design, have completely resolved this issue, offering brand-new solutions for automotive LiDAR and UAV surveying.
High Power Consumption and Complexity in Data Communication
Conventional data communication systems depend on discrete components, which are not only bulky and power-hungry but also increase system complexity. LIGENTEC's silicon nitride chips, through high-density wavelength division multiplexing and low-loss waveguides, have significantly reduced power consumption and system complexity while enhancing transmission efficiency.
Stability Challenges in Quantum Computing
The development of quantum computing is hindered by the instability of free-space optical systems. LIGENTEC's silicon nitride chips, with their integrated design, have minimized interference from environmental noise and improved the stability and reliability of quantum systems.
Precision Issues in Precision Measurement
The field of precision measurement requires highly precise optical systems, but traditional optical systems are often affected by environmental noise and mechanical vibrations. LIGENTEC's silicon nitride chips, with their low-loss waveguides and high power tolerance, provide more stable and accurate measurement solutions.

Don't Miss This Rare Opportunity!
Live Broadcast Time: Thursday, July 10th, 7:30 PM
Live Broadcast Theme: LIGENTEC Low-Loss Silicon Nitride Photonic Integrated Chips and Active Integration
Speaker: Dr. Can Yao, Business Development Manager for LIGENTEC China
Watch the Live Broadcast: https://iertuhvzb.vzan.com/live/page/989373893?shauid=RA7PDY8JHMuYWpnGKNq-UA**&vprid=0&sharetstamp=1750820350259
Scan the QR code to watch the live broadcast.


What You'll Gain by Watching the Live Broadcast:
Master Cutting-Edge Technology: Gain an in-depth understanding of the core advantages of the LIGENTEC low-loss silicon nitride photonic integrated chip platform, including ultra-low loss, high power tolerance, and broad spectral range. Enhance your technical competitiveness in the fields of LiDAR, data communication, quantum computing, and precision measurement.
Explore Cost-Effective Solutions: Learn how to reduce assembly and calibration costs through CMOS compatibility and integrated design while improving the overall performance and reliability of the system, achieving cost reduction and efficiency enhancement.
Limited-Time Benefits: Book in advance to receive the latest LIGENTEC silicon nitride chip application and paper collection for free. Participate in the live broadcast interaction to win LIGENTEC sports sun hats and product technical materials. (If you do not book in advance, watching the live broadcast replay will cost $19.9)
Target Audience: Experts, teachers, R&D personnel of integrated optical systems, and students in the fields of LiDAR, narrow-linewidth lasers, optical sensing, optical communication, optical computing, quantum computing, and quantum communication should not miss this opportunity.
Live Broadcast Reservation:
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